Cell-free protein expression offers a way to express proteins without the disadvantages of classical protein purification.

We developed our own way of expressing proteins in a prokaryotic cell-free expression system based on Escherichia coli lysate. Starting with the lysate, the amino acids and the T7 polymerase, we prepared most of the components ourselves. To verify our system we used various commercial kits.

We validated our expression via SDS PAGE and Western Blot. Moreover we checked with GFP and luciferase for fluorescence and luminescence, respectively.

explanation of luciferase

Since we aim to use cell-free expression in the DiaCHIP we decided to validate the process in single steps. Starting with expression in a tube we spotted already expressed proteins on iRIF slides to check wether or not we expressed detectable antigens that interacted with our antibodies at hand. As a next step we spotted our expression system on the slide without starting the reaction beforehand. By letting it incubate on a specific surface we could check for further possibilities. Lastly, we performed a cell-free expression from immobilized DNA in the finished setup of glass and PDMS slide.

To establish, whether our cell-free expression system reaches protein concentrations high enough to detect in the iRIf, we spotted readily cell-free expressed GFP on iRIF slides. This not only gave us information about the amount of protein, but also on its folding. By seeing an interaction with a corresponding antibody in the iRIf measurement, we could draw conclusions on the epitope.

Firstly we could detect wether the interaction between tagged proteins and the surface was strong enough to bind the proteins as soon as they were formed. This would show when measuring the slide in the iRIf afterwards. Secondly we wanted to assess if the surface was specific enough to not bind components of the mix itself.

This step would show us if we would already get our setup to work as a whole. Moreover, we could estimate, whether the diffusion patterns in a flow chamber differed too much from that in a suitable reaction tube.

Our biggest goal was to express antigens with the required tags in a concentration and folding state that suffices for an iRIf measurement. Here we focussed on a c. tetani epitope flagged by a double His6 and a Spy-Tag. The antigen was expressed in a tube and spotted on a Ni-NTA surface after expression.

To ameliorate the quantity of the cell-free expressed proteins, we varied MgOAc and DNA template concentrations. Here we tested for optimal amounts by using luciferase DNA for direct detection.